about
Assessment of RNA carrier function in peptide amphiphiles derived from the HIV fusion peptideBifacial peptide nucleic acid as an allosteric switch for aptamer and ribozyme function.Bifacial peptide nucleic acid directs cooperative folding and assembly of binary, ternary, and quaternary DNA complexes.Peptide ligation and RNA cleavage via an abiotic template interface.Z-Group ketone chain transfer agents for RAFT polymer nanoparticle modification via hydrazone conjugationLipid membrane adhesion and fusion driven by designed, minimally multivalent hydrogen-bonding lipids.Bifacial PNA complexation inhibits enzymatic access to DNA and RNA.Synthetic Polymer Hybridization with DNA and RNA Directs Nanoparticle Loading, Silencing Delivery, and Aptamer Function.Peptide tertiary structure nucleation by side-chain crosslinking with metal complexation and double "click" cycloaddition.Small-molecule/polymer recognition triggers aqueous-phase assembly and encapsulation.Synthesis of bent [4]phenylene (cyclobuta[1,2-a:3,4-b']bisbiphenylene) and structure of a bis(trimethylsilyl) derivative: the last [4]phenylene isomer.A highly membrane-active peptide in Flock House virus: implications for the mechanism of nodavirus infection.Intra- and intermembrane pairwise molecular recognition between synthetic hydrogen-bonding phospholipids.Small Molecule Recognition Triggers Secondary and Tertiary Interactions in DNA Folding and Hammerhead Ribozyme Catalysis.Functional determinants of a synthetic vesicle fusion system.Self-Assembling Organic NanotubesChemoselective Pd(0)-catalyzed peptide coupling in waterMembrane activation: selective vesicle fusion via small molecule recognitionSyntheses of syn and anti doublebent [5]phenyleneDirected peptide assembly at the lipid-water interface cooperatively enhances membrane binding and activityDiscrete assembly of synthetic peptide-DNA triplex structures from polyvalent melamine-thymine bifacial recognitionStabilization of vesicular and supported membranes by glycolipid oxime polymersProtein assembly directed by synthetic molecular recognition motifsDuplex Stem Replacement with bPNA+ Triplex Hybrid Stems Enables Reporting on Tertiary Interactions of Internal RNA DomainsTriplex Hybridization of siRNA with Bifacial Glycopolymer Nucleic Acid Enables Hepatocyte-Targeted Silencing
P50
Q35961900-DCECD13D-3ED3-4034-AF38-3E7C37921236Q38307355-34815AE5-ABAC-4D57-8E97-B435FE0CFDF2Q38313249-DD434F4A-0C4B-4069-8B48-90C77E795B7DQ41277929-915AAF9D-6C7A-4D3B-89D6-58E68A15CF63Q41300397-2AB22A85-800D-446E-9B23-09E7A00D1623Q41620156-A8F8B259-1119-4854-B721-7A42E11909C3Q41879706-7647757D-B454-46BD-82E6-2776355ADB89Q42175536-64F3759B-9E40-4BCE-B573-D2953D612A2CQ42363396-E3C4C39F-9EBA-44B4-98B6-FF7E0BCF25CDQ43843517-6B87E380-066B-44D2-BBA3-3EB322A7E98FQ44065715-5ABED74B-1A93-463E-8813-DB37B6B74E21Q45748776-026FF5BA-94C7-4E39-8A5F-257E65B3A767Q46319429-7B29863F-97AA-4B02-B2E3-9AF900C52F16Q48152614-3EE6F06B-2041-417C-A7BB-7606F6EAA3E9Q52586268-236E6600-D4D5-4282-856B-F38C99FDCFFBQ73670547-7D2D9CEE-36A1-4E30-A2D3-16AF060D69F1Q74304979-DBB828EF-195A-4710-A748-CB332DA7851CQ79336356-4EA1616D-F625-40C1-9E92-532C50327FC0Q80207326-C5A0C996-EA07-41AF-84BC-4E040455A95BQ83073355-ED407CC6-F673-4B0D-A3DC-3FD5FC81C5DDQ83142149-B8EAF870-D6A4-4267-86B3-6C5C699F320CQ83257405-4CDCA3F0-1108-4817-80B3-32AA70FB9FE5Q84938554-6B39A603-9A0B-4F08-B69B-F2C824BB216AQ92066593-5993063A-5CF7-40F0-B2F2-CA64739BA16AQ92373050-8B595EAD-8F8F-4333-81FC-2022F5575037
P50
description
hulumtues
@sq
researcher
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wetenschapper
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հետազոտող
@hy
name
Dennis Bong
@ast
Dennis Bong
@en
Dennis Bong
@es
Dennis Bong
@nl
Dennis Bong
@sl
type
label
Dennis Bong
@ast
Dennis Bong
@en
Dennis Bong
@es
Dennis Bong
@nl
Dennis Bong
@sl
prefLabel
Dennis Bong
@ast
Dennis Bong
@en
Dennis Bong
@es
Dennis Bong
@nl
Dennis Bong
@sl
P1053
I-9517-2016
P106
P21
P31
P3829
P496
0000-0003-3778-9183